JP2010510735A - Calling method and apparatus in trunking system - Google Patents

Abstract

  The present invention relates to a calling method in a trunking system, in which a call establishment request is made from a caller equipment (UE), a location area where a destination UE is located is found, and a destination UE is located in the location area and its adjacent location area. A calling method in a trunking system comprising calling. According to the present invention, whether the destination UE immediately reports its current location information when the destination UE moves between each location area, or whether the network side knows the current location of the destination UE Regardless of the case, since the network side automatically expands the calling range, the probability that the UE can be called to the network side at once is greatly increased, and the calling delay is shortened.

Description

  The present invention relates to a trunking system, and more particularly to a calling method in a trunking system.

  The trunking system is a premium dispatch mobile communication system. A trunking system is a system in which available channels owned by the system are shared among all users of the system, has a function of automatically selecting a channel, shares resources, shares costs, and shares facilities and services. A wireless dispatch communication system having versatility, high effectiveness, and low cost. The trunking system is strongly required to quickly establish a calling, and due to the particularity of the applied user group, the calling connection rate is also very strict.

  The trunking system is mostly a centralized control calling system, which is realized by adding a procurement subsystem in a conventional mobile internet, for example, a global mobile communication system (GSM) net.

  Recently, a new distributed trunking system has been submitted, and the system has an independent calling system without using the mobile Internet. As shown in FIG. 1, the system includes a radio node (TRN: Trunking Radio Node), a procurement center (TDC), a location register (TLR), a management station (AS, Application Service), and a procurement. And a voice gateway (VGW), a data gateway (DGW), and a trunking interconnection node (TIN).

  The TRN connects a user equipment (UE: User Equipment) to the network via the air interface that the TRN has, performs mobility management and calling control on the UE connected to the TRN, and the UE connected to the TRN Related information is transmitted to the TDC, TLR and other TRNs, and UE information transmitted from the other TRNs is acquired and stored. The TDC performs procurement control for the UE through TRN and TLR in the network by procurement of the procurement table. The TLR stores UE related information and provides information to the TRN, and the TRN is involved in mobility management for the UE. The AS performs management operations on the UE related information stored in the TLR. The procurement platform is a device that performs procurement control and business management for the UE in the trunking communication network, and mainly completes procurement command of trunking calling. The VGW realizes interconnection and voice communication between the TRN, TDC, and TLR in the system and the public telephone exchange network and / or the public land mobile network. The DGW realizes interconnection and data communication between TRN, TDC, and TLR in the system and an external business net / data server. TIN realizes cross-network communication between different trunking networks in the system.

  In the mobile Internet, the network side calls the UE based on the stored location area / rotating area information of the destination UE. However, in a special case, the UE is called by the network because the quality of the wireless network is poor or the UE does not report immediately even if the UE location / rotating area information changes. There will be no.

  In the mobile Internet, the occurrence of the above problem is reduced by adopting a secondary call. In the secondary call, the network side calls the destination UE in the location area / rotating area based on the stored location area / rotating area information of the destination UE, and the destination UE moves to the new location area / rotating area. When the mobile station has already moved and the new location information is not immediately reported to the network side, the destination UE is not called in the original location area / rotating area on the network side. At that time, the network side automatically expands the call range and performs a secondary call to the destination UE in the position area / routing area adjacent to the original position area / rotating area, thereby making the call success rate And the connection rate with the destination is increasing.

  If the primary call is adopted as a task to call the trunking system user by the mobile Internet, it will be limited to the user's call range and will be made to only one location area / rotating area. If it is adopted, the call delay will increase. In both the primary call and the secondary call, the call is made only in the jurisdiction position area / rotating area of the same core net, and the call between the core nets cannot be realized.

  Also, no specific calling method is disclosed for the distribution type trunking system.

  Therefore, the present invention solves the problem of not being able to call over TRN due to high-speed movement of the user, not only expanding the calling range and shortening the call delay, but also realizing calling over TRN for the distributed trunking system. An object of the present invention is to provide a calling method and apparatus in a distributed trunking system.

  The present invention has been made with reference to the above problem, and is a calling method in a trunking system, in which a caller device UE submits a call establishment request, finds a location area where a destination UE is located, and the location area And a calling method characterized by calling the destination UE in the adjacent position area.

  More specifically, the first radio node in which the originating UE is located receives the call establishment request message transmitted by the originating UE, and if the destination UE is located in the first radio node, the first radio node The node determines a location area where the destination UE is located based on the stored information on the destination UE and transmits a call establishment response message to the originating UE, or if the destination UE is located in the second radio node, the router Find the second radio node where the destination UE is located, establish a link between the first radio node and the second radio node, send a call establishment request message to the second radio node, And determining a location area where the destination UE is located based on the stored information on the destination UE, and finding a location area where the destination UE is located according to It provides a calling method in the trunking system that.

  More specifically, when the destination UE is located in the first radio node, if the adjacent position of the location area of the destination UE belongs to another radio node, the first radio node is the adjacent position. The area information and the call establishment request information are transmitted to the corresponding radio node, the first radio node is in the position area where the destination UE is located and the adjacent position area belonging to the node, and the other nodes are in the corresponding position area. Provides a calling method in the above trunking system, characterized in that each destination UE is called.

  More specifically, the destination UE further transmits a call response message to the radio node located in the immediate location at the current location, and further establishes a mobility management connection and a radio resource management connection with the radio node. There is provided a calling method in the above trunking system.

  More specifically, if the current radio node is the first radio node, the originating UE and the destination UE establish communication, or the current radio node is not the first radio node. The immediate wireless node transmits a call response message to the first wireless node, the first wireless node establishes a link with the immediate wireless node, and the originating UE and the destination UE establish communication. The call method in the trunking system is further provided.

  More specifically, when the destination UE is located in the second radio node, if the adjacent position area of the location area of the destination UE belongs to another radio node, the second radio node The location information and the call establishment request message are transmitted to the corresponding radio node, the second radio node is in the location area where the destination UE is located and the adjacent location area belonging to the node, and the other radio nodes are There is provided a calling method in the trunking system, characterized in that each destination UE is called in a location area.

  More specifically, the destination UE further transmits a call response message to the radio node located in the immediate location at the current location, and further establishes a mobility management connection and a radio resource management connection with the radio node. There is provided a calling method in the above trunking system.

  More specifically, if the current wireless node is a second wireless node, the destination UE establishes communication, or if the current wireless node is the first wireless node, Releasing the link between one radio node and the second radio node to complete the call establishment of the originating UE, or if the current radio node is another node, the second radio node The information of the current wireless node is transmitted to the first wireless node, the link with the first wireless node is released, and the first wireless node transmits a call establishment request message to the current wireless node. Receiving the call establishment response message transmitted to the wireless node for the time being and then completing the call establishment of the originating UE. To provide a calling method in the arm.

  Further, the present invention provides a search means for searching a location area of a destination UE based on a call establishment request submitted to a calling user equipment UE based on the above method, and a call for calling a destination UE in the location area and its adjacent area. And a paging device in the trunking system.

  More specifically, the investigating means includes a receiving means for receiving a call establishment request message transmitted by the originating UE, a judging means for determining whether or not both the originating and destination UEs belong to the first radio node, When both the source and destination UEs belong to the first radio node, the location area of the destination UE is determined based on the destination UE information stored in the first radio node, and a call establishment response message is transmitted to the source UE And a second wireless node where the destination UE is located by the router when the originating UE belongs to the first wireless node and the destination UE belongs to the second wireless node, respectively, Establishing a link between the radio node and the second radio node, sending a call establishment request message to the second radio node, and the second radio node based on the stored destination UE information It provides a different node checking means for determining a location area of the above UE, the calling device in the trunking system comprising: a.

  More specifically, the calling unit includes: a position area determination unit that determines whether an adjacent area of the location area of the destination UE belongs to another radio node; and an adjacent area of the location area of the destination UE. When the mobile station belongs to another radio node, the notification means for transmitting the information on the adjacent location area and the call establishment request message to the other radio node, the location location area of the destination UE, and the location adjacent to the location node of the destination UE There is provided a call device in the trunking system, comprising: UE call means for calling a destination UE in a region and notifying the other radio node that the destination UE is called in a corresponding location region.

  According to the present invention, when the originating UE issues a call request, the network side finds the location location area of the destination UE and then calls the destination UE in the location area and its adjacent location area. Thereby, when the destination UE is moved between each location area, whether the destination UE immediately reports its current location information or whether the network side knows the current location of the destination UE. However, since the network side automatically expands the calling range, the probability that the UE can be called to the network side at once is greatly increased, and the calling delay is shortened.

It is a figure which shows the outline | summary of the network structure in a trunking system. 3 is a flowchart of the first embodiment. 10 is a flowchart of Example 2. 6 is a signal flowchart of Example 2; 10 is a flowchart of Example 3. It is a figure which shows the outline | summary of the structure of the apparatus based on this invention.

  In the present invention, when the originating UE issues a call request, the network side finds a location area where the destination UE is located, and then calls the destination UE in the location area and its neighboring location areas to expand the call range. This reduces the call delay.

  When UE1 calls UE2, UE1 is the originating UE, UE2 is the destination UE, UE1 is located in location area A1 belonging to TRN1, UE2 is located in location area B1 belonging to TRN2, and location areas B2 and B3 are B1 It is assumed that it is an adjacent position area.

  In Example 1, when UE1 and UE2 are located in the same TRN, that is, when TRN1 and TRN2 are the same TRN, the flow of UE1 calling UE2 is as shown in FIG.

  In step 201, UE1 sends a call establishment request message to TRN1, that is, the originating UE calls to the network side.

  In step 202, when receiving the call establishment request message, TRN1 obtains the number of the destination UE UE2, and if it is found that UE2 belongs to this TRN, TRN1 transmits a call establishment response message to UE1. At the same time, UE2 is called in the position areas B2 and B3 adjacent to the position areas B1 and B1.

  In step 203, when receiving the call establishment response message, UE1 transmits a call completion instruction message to TRN1.

  In step 204, UE2 receives the call message and sends a call response message to TRN1.

  In step 205, an MM and RR connection is established between TRN1 and UE2.

  In step 206, communication is established between UE1 and UE2, and a call is performed.

  In the first embodiment, the location areas B1, B2 and B3 all belong to TRN1, regardless of whether or not UE2 immediately reports its current location when UE2 moves to the three location areas. , TRN1 can immediately call UE2 in the three location areas.

  If location area B3 belongs to TRN3 instead of TRN1, TRN1 cannot immediately call UE2 in location area B3. At that time, TRN1 needs to send a call establishment request message and information on location area B3 to TRN3, and it is necessary for TRN3 to call UE2 in location area B3.

  When the UE 2 moves to the location area B3 when the network side makes a call, the TRN 3 receives the call response message from the UE 2, and mobility management (MM, Mobility Management) and radio resources with the UE 2 A management (RR, Radio Resource Management) connection is established and a call response message is sent to TRN1. At that time, TRN1 and TRN3 are linked, and UE1 and UE2 establish communication and make a call.

  As can be seen from the first embodiment, when the UE 2, that is, the destination UE is moved between each location area, whether or not the destination UE immediately reports the information of the current location, whether the network side determines the actual current location of the destination UE. Regardless of whether or not it is known, since the network side automatically expands the calling range, the probability that the UE can be called to the network side at once is greatly increased and the call delay is shortened.

  In Example 2, if UE1 and UE2 are located in different TRNs, that is, if TRN1 and TRN2 are different TRNs, the flow of UE1 calling UE2 is as shown in FIG.

  In step 301, UE1 sends a call establishment request message to TRN1, that is, the originating UE makes a call to the network side.

  In step 302, a rotating investigation is performed, and TRN1 finds that UE2 is located in TRN2 and establishes a link with TRN2.

  In step 303, TRN1 sends a call establishment request message to TRN2.

  In step 304, after receiving the call establishment request message transmitted from TRN1, TRN2 further transmits a call establishment request message to the TRN belonging to the adjacent location area when it finds that there is an adjacent location area belonging to another TRN. There is a need to.

  For example, when TRN2 finds that the adjacent position area B3 of the position area B1 belongs to TRN3, it further transmits a call establishment request message and information on the position area B3 to TRN3.

  In step 305, the TRN that has received the call establishment request message calls UE2 in the corresponding location area.

  If location areas B1, B2 and B3 all belong to TRN2, only TRN2 calls UE2 in location areas B1, B2 and B3, but if location areas B1, B2 belong to TRN2 and location area B3 belongs to TRN3, The TRN3 receives the call establishment request message and the location area B3 information transmitted from the TRN2. At that time, TRN2 not only calls UE2 in location areas B1 and B2, but also TRN3 calls UE2 in location area B3.

  In Step 306, when the UE 2 receives the call message, the UE 2 transmits a call response message to the TRN located in the immediate area, and establishes the MM and RR connection with the TRN located in the immediate area.

  When the UE 2 receives the call message in the TRN 2 jurisdiction area, the UE 2 transmits a call response message to the TRN 2 and establishes an MM and RR connection with the TRN 2. When UE2 receives a call message in a location area controlled by TRN3, UE2 transmits a call response message to TRN3 and establishes MM and RR connection with TRN3.

  In step 307, the TRN that has received the call response message transmits the call response message to TRN2.

  For example, if TRN3 receives a paging response message transmitted from UE2, it sends the message to TRN2 to inform TRN2 that UE2 is located in TRN3.

  In step 308, TRN2 determines whether a paging response message has been transmitted from another TRN.

  If transmitted from other TRNs, in step 310, TRN2 initiates the call routing reassignment process, and UE2 transmits the address of TRN located for the time being to TRN1 and the link between TRN1 and TRN2 Is released and step 311 is executed.

  Otherwise, in step 309, UE1 and UE2 establish communication and make a call.

  In step 311, TRN1 submits a call establishment request to the TRN where UE2 is actually located.

  Assuming that the TRN in which UE2 is actually located is TRN3, the call response message transmitted from UE2 to TRN3 is transmitted to TRN2, and the call routing reassignment process is caused by TRN2, and the address of TRN3 is transmitted to TRN1. At the same time, the link between TRN1 and TRN2 is released. TRN1 then raises a call establishment request to TRN3.

  In step 312, the TRN where UE2 is located for the time being responds to the call establishment request of TRN1.

  In step 313, TRN1 transmits a call establishment response message to UE1, and UE1 completes call establishment of the originating UE by returning a call completion instruction message to TRN1.

  As can be seen from the above, in the second embodiment, even if the source and destination UEs are not located in the same TRN, the principle that the network side calls the destination UE is exactly the same as in the first embodiment, that is, the call range is automatically expanded. Therefore, the probability that the UE can be called once on the network side is greatly increased, and the call delay is shortened.

  In Example 2, in the case where there are those belonging to other TRNs in the adjacent position area of the position area B1 where the UE 2 is located, and after the UE 2 moves to the adjacent position area, the immediate position is not reported immediately A signal flowchart at that time is shown in FIG.

  In Example 3, UE1 and UE2 are located in different TRNs. When UE2 moves to TRN1, which is the TRN where UE1 is located, the flow of UE1 calling UE2 is as shown in FIG.

  In step 501, UE1 sends a call establishment request message to TRN1, that is, the originating UE makes a call to the network side.

  In step 502, a roving investigation is performed, and TRN1 finds that UE2 is located in TRN2 and establishes a link with TRN2.

  In step 503, TRN1 sends a call establishment request message to TRN2.

  In step 504, after receiving the call establishment request message transmitted from TRN1, TRN2 further transmits a call establishment request message to the TRN belonging to the adjacent location area when it finds that there is an adjacent location area belonging to another TRN. There is a need to.

  For example, when TRN2 finds that the location area B3 adjacent to the location area B1 belongs to TRN1, it further transmits a call establishment request message and information on the location area B3 to TRN1.

  In step 505, the TRN that has received the call establishment request message calls UE2 in the corresponding location area.

  If location areas B1, B2 and B3 all belong to TRN2, only TRN2 calls UE2 in location areas B1, B2 and B3, but if location areas B1, B2 belong to TRN2 and location area B3 belongs to TRN1, TRN1 receives the call establishment request message and location area B3 information transmitted from TRN2. At that time, TRN2 not only calls UE2 in location areas B1 and B2, but also TRN1 calls UE2 in location area B3.

  In step 506, UE2 receives the paging message, sends a paging response message to the currently located TRN, and establishes MM and RR connection with the corresponding TRN.

  When UE2 receives the call message in the jurisdiction location area of TRN2, UE2 sends a call response message to TRN2 to establish MM and RR connection with TRN2. When UE2 receives a call message in a location area under the control of TRN1, UE2 transmits a call response message to TRN1 to establish MM and RR connection with TRN3.

  In step 507, when the TRN1 receives the call response message transmitted from the UE2, the TRN1 notifies the TRN2 to reassign the call routing.

  TRN2 releases the link with TRN1 after receiving the notification of the rotation reassignment transmitted from TRN1.

  In step 508, TRN1 transmits a call establishment response message to UE1, and UE1 completes call establishment of the originating UE by returning a call completion instruction message to TRN1.

  Based on the above method, the present invention further provides a calling device in the trunking system, the structure of which is shown in FIG. 6, which comprises an investigation means 61 and a calling means 62. The investigation unit 61 includes a reception unit 611, a determination unit 612, an identical node investigation unit 613, and a different node investigation unit 614. The calling unit 62 includes a location area determining unit 621, a notification unit 622, and a UE calling unit 623. When the system is operated, every TRN is equipped with the device, and when the calling UE calls, the device performs a function corresponding to the TRN in which it is located.

  When UE1 calls UE2, UE1 is the originating UE, UE2 is the destination UE, UE1 is located in location area A1 belonging to TRN1, UE2 is located in location area B1 belonging to TRN2, and location areas B2 and B3 are B1 It is assumed that it is an adjacent position area.

  When UE1 transmits a call establishment request message to the network side, TRN1 searches for a location area where UE2 as the destination UE is located based on the call establishment request message presented to UE1 by investigation means 61 in the calling device. The UE 2 is called in the location area of the UE 2 and its adjacent position area through the calling means 62.

  When UE1 transmits a call establishment request message to the network side, the apparatus receives the call establishment request message transmitted to UE1 by receiving means 611 at TRN1, and UE1 and UE2 are both identical by determination means 612. It is judged whether it belongs to the wireless node.

  When UE1 and UE2 are in the same TRN, that is, when TRN1 and TRN2 are the same TRN, the same node investigation means 613 is a location area where UE2 is located based on the UE2 information stored in TRN1 B1 is acquired and a call establishment response message is transmitted to UE1.

  Thereafter, the calling device determines whether the position areas B2 and B3, which are adjacent to the position area B1, belong to other TRNs by the position area determination means 621. If there is an adjacent position area belonging to another TRN, if the position area B3 is located in the other TRN, the notification means 622 transmits the information of the position area B3 and the UE 1 to the TRN to which the position area B3 belongs. Send the requested call establishment request message.

  Finally, the calling device causes the UE calling means 623 to call UE2 in the position area B1 and its adjacent position area B2, and notifies the TRN to which the position area B3 belongs to call UE2 in the position area B3.

  When UE1 and UE2 are not located in the same TRN, i.e., TRN1 and TRN2 are not the same TRN, the different node investigation means 614 finds the location TRN2 of UE2 in the rotation investigation, and between TRN1 and TRN2 The link is established, and a call establishment request message is transmitted to TRN2. TRN2 determines the location region B1 that is the location location of UE2 based on the stored UE2 information.

  In TRN2, the calling device determines whether or not there are position areas B2 and B3, which are adjacent to the position area B1, belonging to other TRNs by the position area determination means 621. If there is something belonging to another TRN in the adjacent location area, assuming that the location area B3 is located in the other TRN, the information of the location area 3 and the call establishment request message transmitted to the UE1 by the notification means 622 It transmits to the belonging TRN of the position area B3.

  Thereafter, the calling device calls UE2 in the position area B1 and the adjacent position area B2 by the UE calling means 623, and notifies the belonging TRN of the position area B3 to call UE2 in the position area B3.

  As can be seen from the above, regardless of whether UE2 immediately reports its current location information when UE2 moves between each location area, or whether the network side knows the current location of UE2. Since the network side automatically expands the calling range, the probability that the UE can be called to the network side at once is greatly increased.

  The embodiments described above are merely the best mode for carrying out the present invention, and the present invention is not limited to these. As long as the gist and principle of the present invention are not violated, any changes, equivalent replacements, improvements, and the like made belong to the protection scope of the present invention.

  The present invention requires the priority of a Chinese patent application “Calling method and apparatus in a trunking system” filed on November 24, 2006, filed with the Chinese Patent Office with the application number 200610144067.8. The entire contents of the patent application shall be incorporated into this application.

Claims (11)

The caller equipment UE submits a call establishment request, searches for a location area where the destination UE is located, and calls the destination UE in the location area and its neighboring location areas;
Comprising
Calling method in a trunking system characterized by the above. The first radio node where the originating UE is located receives the call establishment request message sent by the originating UE;
When the destination UE is located in the first radio node, the first radio node determines a location area where the destination UE is located based on the stored destination UE information, and transmits a call establishment response message to the source UE Or if the destination UE is located at the second radio node, the router finds the second radio node where the destination UE is located and establishes a link between the first radio node and the second radio node Sending a call establishment request message to the second radio node, the second radio node determining the location area where the destination UE is located based on the stored destination UE information;
To find the location area where the destination UE is located,
The calling method in the trunking system according to claim 1. If the destination UE is located in the first radio node,
If the adjacent position of the location area where the destination UE is located belongs to another radio node, the first radio node transmits the information of the adjacent location area and the call establishment request information to the corresponding radio node,
The first radio node calls the destination UE in the position area where the destination UE is located and the adjacent position area belonging to the node, and the other nodes in the corresponding position area,
The calling method in the trunking system according to claim 2. The destination UE further comprises a step of transmitting a call response message to the radio node located in the immediate location at the current location and establishing a mobility management connection and a radio resource management connection with the radio node.
The calling method in the trunking system according to claim 3. If the immediate radio node is a first radio node, the originating UE and the destination UE establish communication;
Or
If the current wireless node is not the first wireless node, the current wireless node sends a paging response message to the first wireless node, and the first wireless node establishes a link with the current wireless node. The originating UE and the destination UE establish communication,
Further comprising
The calling method in the trunking system according to claim 4. If the destination UE is located at the second radio node,
If the adjacent location area of the location area where the destination UE is located belongs to another radio node, the second radio node transmits the adjacent location area information and the call establishment request message to the corresponding radio node, and The two radio nodes call the destination UE in the location area where the destination UE is located and the adjacent location area belonging to the node, and the other radio nodes in the corresponding location area, respectively.
The calling method in the trunking system according to claim 2. The destination UE further comprises a step of transmitting a call response message to the radio node located in the immediate location at the current location and establishing a mobility management connection and a radio resource management connection with the radio node.
The calling method in the trunking system according to claim 6. If the immediate radio node is a second radio node, the destination UE establishes communication;
Alternatively, if the immediate wireless node is the first wireless node,
Releasing the link between the first radio node and the second radio node to complete the call establishment of the originating UE;
Or
If the current wireless node is another node, the second wireless node transmits information on the current wireless node to the first wireless node and releases a link with the first wireless node; The first radio node transmits a call establishment request message to the current radio node, receives the call establishment response message transmitted to the current radio node, and completes call establishment of the originating UE;
Further comprising
The calling method in the trunking system according to claim 7. Based on the call establishment request submitted to the calling user equipment UE, a search means for finding the location area of the destination UE;
Paging means for calling a destination UE in the location area and its neighboring areas;
Comprising
This is a calling device in a trunking system. The investigation means includes
Receiving means for receiving a call establishment request message sent by the originating UE;
Determining means for determining whether the source and destination UEs both belong to the first radio node;
When both the source and destination UEs belong to the first radio node, the location area of the destination UE is determined based on the destination UE information stored in the first radio node, and a call establishment response message is transmitted to the source UE The same node investigation means for,
When the source UE belongs to the first radio node and the destination UE belongs to the second radio node, the router finds the second radio node where the destination UE is located, and the first radio node and the second radio node A different node in which the second wireless node establishes a location area of the destination UE based on the stored information of the destination UE by establishing a link between the first wireless node and the second wireless node Investigation means,
Comprising
The calling device in the trunking system according to claim 9. The calling means is
Position area determination means for determining whether or not an adjacent area of the location area of the destination UE belongs to another wireless node;
A notification means for transmitting information on the adjacent location area and the call establishment request message to the other radio node when an adjacent area of the location area of the destination UE belongs to the other radio node;
UE call means for calling the destination UE in the location area of the destination UE and the adjacent location area of the node where the destination UE is located, and notifying the other radio nodes to call the destination UE in a corresponding location area;
Comprising
The calling device in a trunking system according to claim 10.

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